An image sensor packaging method, an image sensor package and a lens module are disclosed. In the image sensor packaging method, plural image sensor dies are formed within a molded layer, resulting in a package with a significantly reduced thickness which is favorable to the slimming of the package. The packaging method does not involve any wire bonding process. Instead, metal pads are led out through a thin metal film formed in non-photosensitive areas on the same side of micro lens surfaces of the image sensor dies. This approach has a less adverse impact on micro lens surfaces and, compared to the wire bonding process, allows a smaller spacing from metal pads to the micro lens surfaces with respect to a direction parallel to the micro lens surfaces, which enables more compact image sensor dies usable in a lens module for an optimized spatial design and ease of miniaturization.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An image sensor package, comprising: a plurality of image sensor dies spaced apart from one another and comprising micro lens surfaces oriented in a same direction and backsides opposing to the micro lens surfaces; and a molded layer, which fills gaps between the plurality of image sensor dies and surrounds the plurality of image sensor dies, the molded layer comprising a first surface oriented in a same direction as the micro lens surfaces and a second surface oriented in a same direction as the backsides, wherein a distance between the first and second surface of the molded layer is equal to or greater than a distance between the micro lens surfaces and the backsides of the plurality of image sensor dies, the image sensor package further comprising: metal pads formed in non-photosensitive areas on a side of the micro lens surfaces, the metal pads adapted to connect the plurality of image sensor dies to an external circuitry; vias formed in the molded layer, the vias filled with a conductive material; a front-side structure on the side of the micro lens surfaces, the front-side structure comprising, formed sequentially external to the micro lens surfaces, a first passivation layer, a thin metal film and a second passivation layer, a backside structure on a side of the backsides of the plurality of image sensor dies, the backside structure comprising a third passivation layer covering both the second surface and the backsides of the plurality of image sensor dies and a backside metal layer on a surface of the third passivation layer, wherein both the thin metal film and the backside metal layer are in contact with the vias and wherein the thin metal film is further in contact with the metal pads.
2. The image sensor package according to claim 1 , further comprising: first contact holes and second contact holes formed in the first passivation layer and third contact holes formed in the third passivation layer, wherein the thin metal film forms in contact with the vias and the metal pads through the first contact holes and the second contact holes, respectively; and wherein the backside metal layer forms in contact with the vias through the third contact holes.
3. The image sensor package according to claim 1 , further comprising a protective glass cover covering the second passivation layer and the micro lens surfaces.
4. The image sensor package according to claim 1 , wherein the metal pads are spaced apart from the micro lens surfaces with respect to a direction parallel to the micro lens surfaces by a distance of smaller than 50 μm.
5. The image sensor package according to claim 1 , wherein the molded layer comprises a thermosetting resin.
6. A lens module comprising the image sensor package according to claim 1 .
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
February 26, 2018
July 28, 2020
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